U32 Mesh::Manager::Report()
{
U32 countT = 0, memT = 0;
NBinTree<MeshRoot>::Iterator ri(&rootTree);
while (MeshRoot * root = ri++)
{
if (!root->isChunk)
{
memT += root->GetMem();
countT++;
}
}
U32 countE = 0, memE = 0;
NList<MeshEnt>::Iterator ei(&entList);
while (MeshEnt * ent = ei++)
{
memE += ent->GetMem();
countE++;
}
U32 mem = memT + memE + endVar - startVar; // namespace
CON_DIAG( ("%4d %-31s: %9d", countT, "mesh types", memT ) );
LOG_DIAG( ("%4d %-31s: %9d", countT, "mesh types", memT ) );
CON_DIAG( ("%4d %-31s: %9d", countE, "mesh instances", memE ) );
LOG_DIAG( ("%4d %-31s: %9d", countE, "mesh instances", memE ) );
return mem;
}
U32 Mesh::Manager::ReportList( const char * name) // = NULL
{
U32 count = 0;
U32 len = 0, hit = FALSE;
if ( name)
{
len = strlen( name);
}
else
{
hit = TRUE;
}
U32 mem = 0;
remem = recount = rgeo = ranim = rmrm = 0;
NBinTree<MeshRoot>::Iterator li(&rootTree);
while (MeshRoot * root = li++)
{
if (!root->isChunk && (!name || !strnicmp( root->fileName.str, name, len)))
{
mem += Report( *root);
hit = TRUE;
count++;
}
}
if (hit)
{
CON_DIAG( ("%4ld %-31s: %9ld g%6ld a%6ld m%6ld", count, "mesh types", mem,
rgeo, ranim, rmrm
));
LOG_DIAG( ("%4ld %-31s: %9ld g%6ld a%6ld m%6ld", count, "mesh types", mem,
rgeo, ranim, rmrm
));
CON_DIAG( ("%4ld %-31s: %9ld", recount, "mesh instances", remem ) );
LOG_DIAG( ("%4ld %-31s: %9ld", recount, "mesh instances", remem ) );
}
else
{
CON_DIAG( ("Can't find mesh type: %s", name) );
}
return mem + remem;
}
///////////////////////////////////////////////////////////////////////////////
//
// Quake::CmdHandler
//
void CmdHandler(U32 pathCrc)
{
switch (pathCrc)
{
case 0x3860F45E: // "quake.active"
if (*active)
{
effect->StopByEffect();
effect->Play2D(Sound::Digital::DEFAULT_VOLUME, Sound::Digital::NO_OWNER, F32_MAX, 0);
soundoff = FALSE;
quakeAnim.SetFrame(0);
}
else
{
effect->StopByEffect();
soundoff = TRUE;
}
break;
case 0x030664FD: // "quake.type"
{
Type * t = typeList.Find( Crc::CalcStr( *typeVar));
if (t)
{
SetCurrent( t);
}
break;
}
case 0x44327F38: // "quake.listtypes"
{
char *s = NULL;
Console::GetArgString(1, s);
U32 len = 0;
if (s)
{
len = strlen(s);
}
// Registered quake types
CON_DIAG(("[Quake Types]"))
BinTree<Type>::Iterator i(&typeList);
for (!i; *i; i++)
{
if (!s || !Utils::Strnicmp( (*i)->name.str, s, len))
{
Console::Message("%s", (*i)->name.str);
}
}
break;
}
//
} // switch( pathCrc)
}
U32 FamilyNode::GetHierarchy( BuffString *names, U32 &count, Bool local, U32 tabCount, Matrix * matrix) const // = FALSE, = 0, = NULL
{
if (count >= MAXMESHPERGROUP)
{
return count;
}
BuffString buff;
char *p = buff.str;
U32 i;
for (i = 0; i < tabCount; i++)
{
*p++ = ' ';
}
Utils::Strcpy( p, name.str);
if (names)
{
names[count] = buff.str;
}
else
{
if (matrix)
{
CON_DIAG((""));
LOG_DIAG((""));
}
CON_DIAG( ("%s", buff.str) );
LOG_DIAG( ("%s", buff.str) );
if (matrix)
{
*p = '\0';
CON_DIAG(("%sright %f,%f,%f", buff.str, matrix->right.x, matrix->right.y, matrix->right.z));
CON_DIAG(("%sup %f,%f,%f", buff.str, matrix->up.x, matrix->up.y, matrix->up.z));
CON_DIAG(("%sfront %f,%f,%f", buff.str, matrix->front.x, matrix->front.y, matrix->front.z));
CON_DIAG(("%sposit %f,%f,%f", buff.str, matrix->posit.x, matrix->posit.y, matrix->posit.z));
LOG_DIAG(("%sright %f,%f,%f", buff.str, matrix->right.x, matrix->right.y, matrix->right.z));
LOG_DIAG(("%sup %f,%f,%f", buff.str, matrix->up.x, matrix->up.y, matrix->up.z));
LOG_DIAG(("%sfront %f,%f,%f", buff.str, matrix->front.x, matrix->front.y, matrix->front.z));
LOG_DIAG(("%sposit %f,%f,%f", buff.str, matrix->posit.x, matrix->posit.y, matrix->posit.z));
}
}
Matrix newMatrix;
if (matrix)
{
if (count > 0)
{
*matrix = ObjectMatrix() * *matrix;
}
newMatrix = *matrix;
}
count++;
NList<FamilyNode>::Iterator kids(&children);
FamilyNode *node;
while ((node = kids++) != NULL)
{
if (local && node->nodeType != nodeMesh && node->nodeType != nodeMeshObj)
{
continue;
}
if (matrix)
{
*matrix = newMatrix;
}
tabCount++;
node->GetHierarchy( names, count, local, tabCount, matrix);
tabCount--;
}
return count;
}
//
// CmdHandler
//
// Handles all global level console commands
//
static void CmdHandler(U32 pathCrc)
{
switch (pathCrc)
{
//
// Root level commands
//
case 0xB4729720: // "quit"
runCodes.Set("QUIT");
break;
#ifdef DEVELOPMENT
case 0xBC36982D: // "ls"
{
U32 flags = Console::SHOWSCOPES | Console::SHOWVARS | Console::SHOWCMDS;
// Recurse if there are any args ;)
if (Console::ArgCount() == 1)
{
flags |= Console::NORECURSE;
}
Console::DisplayVarScope(VarSys::gScope, 0, flags);
break;
}
#endif
case 0xC39EE127: // "op"
{
const char *var, *op;
VarSys::VarItem *param;
if (Console::GetArgString(1, var) && Console::GetArgString(2, op) && Console::GetArg(3, param))
{
Operation::Console(var, op, param);
}
else
{
CON_ERR((Console::ARGS))
}
break;
}
case 0x5D8A9066: // "?"
case 0xFF52E6E7: // "help"
CON_DIAG(("Commands at the global scope :"))
Console::DisplayVarScope(VarSys::gScope, 0, Console::SHOWCMDS);
break;
case 0x4CE2B3B3: // "bind"
{
const char *s1 = NULL, *s2;
// If one argument is provided then print the binding for that item
if (Console::GetArgString(1, s1))
{
if (Console::GetArgString(2, s2))
{
// Bind the key
KeyBind::Create(s1, s2);
break;
}
}
// Print the binding
KeyBind::Dump(KeyBind::DUMP_PRESS | KeyBind::DUMP_HOLD, s1);
break;
}
case 0x3E3AF310: // "unbind"
{
const char *s;
if (!Console::GetArgString(1, s))
{
CON_ERR((Console::ARGS))
}
else
{
// Unbind the key
KeyBind::Remove(s);
}
break;
}
case 0xAAD665AB: // "exec"
{
const char *name;
if (Console::GetArgString(1, name))
{
if (!Exec(name, ScopeHandler, FALSE))
{
CON_ERR(("Unable to exec file '%s' (not found)", name))
}
}
else
{
CON_ERR((Console::ARGS))
}
break;
}
case 0x93890429: // "echo"
{
const char *str;
if (Console::GetArgString(1, str))
{
CON_MSG((str))
}
break;
}
//
// System commands
//
case 0x2AF1E6BC: // "sys.info"
CON_DIAG(("CPU: %s", Hardware::CPU::GetDetailedDesc()))
CON_DIAG(("MEM: %s", Hardware::Memory::GetDesc()))
CON_DIAG(("OS : %s", Hardware::OS::GetDesc()))
break;
case 0x65CDFB1A: // "sys.uptime"
CON_ERR(("I fell off my bike and hurt my knee :("))
break;
case 0x9FE06237: // "sys.profile"
break;
case 0x1C3D54FD: // "sys.ver"
CON_DIAG((Version::GetBuildString()))
CON_DIAG(("Compiler flags: %s", Version::GetBuildDefs()))
CON_DIAG(("Compiled by %s\\%s on %s", Version::GetBuildMachine(), Version::GetBuildUser(), Version::GetBuildOS()))
CON_DIAG(("Executed by %s\\%s on %s", Hardware::OS::GetComputer(), Hardware::OS::GetUser(), Hardware::OS::GetDesc()))
break;
case 0x27988902: // "sys.runcode"
{
const char *s;
if (Console::ArgCount() == 2 && Console::GetArgString(1, s))
{
runCodes.Set(s);
}
else
{
CON_ERR((Console::ARGS))
}
break;
}
case 0x94908FF0: // "sys.runonce"
{
const char *s;
if (Console::GetArgString(1, s))
{
AddRunOnceCmd(s);
}
else
{
CON_ERR((Console::ARGS))
}
break;
}
case 0xEBB16C2F: // "sys.buildfileindexes"
FileSys::BuildIndexes();
break;
//
// Profile commands
//
case 0xC20C046F: // "profile.init"
{
S32 max;
S32 interval;
if (!Console::GetArgInteger(1, max) || !Console::GetArgInteger(2, interval))
{
CON_ERR(("profile.init max interval"))
}
else
{
Profile::Init(max, interval);
profileOn = TRUE;
}
break;
}
case 0x484CCBF7: // "profile.reset"
if (!profileOn)
{
CON_ERR(("Profiling is not initialized, use profile.init"))
}
else
{
Profile::Reset();
}
break;
case 0x139D6F79: // "profile.start"
if (!profileOn)
{
CON_ERR(("Profiling is not initialized, use profile.init"))
}
else
{
Profile::Start();
}
break;
case 0x96C4A523: // "profile.stop"
if (!profileOn)
{
CON_ERR(("Profiling is not initialized, use profile.init"))
}
else
{
Profile::Stop();
}
break;
//
// Debug commands
//
case 0x7C6C010C: // "debug.break"
DebugBreak();
break;
case 0xE7123308: // "debug.assert"
{
CON_DIAG(("Calling ASSERT(0)"))
Bool fatal = 0;
fatal;
ASSERT(fatal);
break;
}
case 0x406C755D: // "debug.stackoverflow"
CmdHandler(0x406C755D);
break;
case 0x019C9670: // "debug.filesys"
CON_DIAG(("Logging all file sources"))
FileSys::LogAllSources();
break;
case 0x72E8EE93: // "debug.infiniteloop"
{
for (;;)
{
}
}
case 0xB67F90C3: // "debug.loop"
{
S32 time;
if (Console::GetArgInteger(1, time) && (time > 0))
{
U32 start = Clock::Time::Ms();
for (;;)
{
if (Clock::Time::Ms() > (start + U32(time)))
{
break;
}
}
}
break;
}
case 0x329B7354: // "debug.zerodiv"
{
Utils::FP::UnmaskException(Utils::FP::EX_ZERODIVIDE);
F32 a = 0.0F;
F32 b = 5.0F / a;
b;
break;
}
case 0x9C3DECF8: // "debug.intzerodiv"
{
S32 a = 0;
S32 b = 5 / a;
b;
break;
}
case 0x0C887FB2: // "debug.overflow"
{
Utils::FP::UnmaskException(Utils::FP::EX_OVERFLOW);
F32 a = F32_MAX;
a *= 2.0F;
break;
}
case 0x3B8C9F71: // "debug.underflow"
{
Utils::FP::UnmaskException(Utils::FP::EX_UNDERFLOW);
F32 a = F32_EPSILON;
a *= F32_EPSILON;
break;
}
case 0x4A533750: // "debug.dircrc"
{
// Dump Directory Crc
U32 crc = Dir::Crc(".\\packs");
CON_DIAG(("Data Crc: [%08X]", crc))
break;
}
case 0xD30DA7AC: // "debug.dumpsymbols"
Debug::Symbol::Dump();
break;
case 0x21237FCF: // "debug.memory.accessviolation"
{
U8 *p = NULL;
*(p+0xFFFFFFFF) = 0;
break;
}
case 0xF0BA78F5: // "debug.memory.overwritehead"
{
U8 *p = new U8[24];
*(p - 2) = 0x00;
delete p;
break;
}
case 0x29939DAF: // "debug.memory.overwritetail"
{
U8 *p = new U8[24];
*(p + 26) = 0x00;
delete p;
break;
}
case 0x1C7E4D06: // "debug.memory.useall"
{
U32 meg = 0;
for (;;)
{
char *mem = new char[1048576 * 5];
memset(mem, 0, 1048576 * 5);
meg+=5;
LOG_DIAG(("Allocated %d megs", meg));
}
break;
}
case 0x137FF882: // "debug.memory.snapshot"
{
Debug::Memory::SnapShot();
break;
}
case 0x24D608EF: // "debug.memory.report"
{
CON_DIAG(("Memory Report"))
CON_DIAG(("-------------"))
CON_DIAG(("Current Memory Usage:"))
CON_DIAG(("Allocated Blocks : %d", Debug::Memory::GetAllocatedBlocks()))
CON_DIAG(("Allocated Bytes : %d", Debug::Memory::GetAllocatedBytes()))
CON_DIAG(("Overhead Bytes : %d", Debug::Memory::GetOverheadBytes()))
CON_DIAG(("Cache Blocks : %d", Debug::Memory::GetCacheBlocks()))
CON_DIAG(("Cache Bytes : %d", Debug::Memory::GetCacheBytes()))
CON_DIAG(("Maximum Memory Usage:"))
CON_DIAG(("Allocated Blocks : %d", Debug::Memory::GetMaxAllocatedBlocks()))
CON_DIAG(("Allocated Bytes : %d", Debug::Memory::GetMaxAllocatedBytes()))
CON_DIAG(("Overhead Bytes : %d", Debug::Memory::GetMaxOverheadBytes()))
CON_DIAG(("Cache Blocks : %d", Debug::Memory::GetMaxCacheBlocks()))
CON_DIAG(("Cache Bytes : %d", Debug::Memory::GetMaxCacheBytes()))
break;
}
case 0x46B0E840: // "debug.memory.flushcache"
Debug::Memory::FlushCache();
break;
case 0x238DA5B4: // "debug.memory.validateall"
CON_DIAG(("Validating Memory ..."))
Debug::Memory::ValidateAll();
break;
case 0x1C2EF73F: // "debug.memory.examine"
Debug::Memory::Examine();
break;
}
U32 Mesh::Manager::Report( MeshRoot & root, Bool all) // = FALSE
{
U32 mem = root.GetMem();
U32 emem = 0, count = 0;
NList<MeshEnt>::Iterator li(&entList);
while (MeshEnt * ent = li++)
{
if (&ent->Root() == &root)
{
emem += ent->GetMem();
count++;
}
}
remem += emem;
recount += count;
U32 geo = root.GetMemGeometry();
rgeo += geo;
U32 anim = root.GetMemAnim();
ranim += anim;
U32 mrm = root.GetMemMRM();
rmrm += mrm;
if (all)
{
CON_DIAG( ("%-36s: f%4ld v%4ld n%4ld u%4ld c%4ld m%3ld a%2ld",
root.fileName.str,
root.faces.count,
root.vertices.count,
root.normals.count,
root.uvs.count,
root.colors.count,
root.states.count,
root.animCycles.GetCount()
));
LOG_DIAG( ("%-36s: f%4ld v%4ld n%4ld u%4ld c%4ld m%3ld a%2ld",
root.fileName.str,
root.faces.count,
root.vertices.count,
root.normals.count,
root.uvs.count,
root.colors.count,
root.states.count,
root.animCycles.GetCount()
));
CON_DIAG( ("%-36s: %9ld g%6ld a%6ld m%6ld c%6ld", " mem total",
mem, geo, anim, mrm, root.GetMemChunks()
));
LOG_DIAG( ("%-36s: %9ld g%6ld a%6ld m%6ld c%6ld", " mem total",
mem, geo, anim, mrm, root.GetMemChunks()
));
CON_DIAG( (" %4d %-30s: %9ld", count, "instances", emem));
LOG_DIAG( (" %4d %-30s: %9ld", count, "instances", emem));
}
else
{
CON_DIAG( ("%-36s: %9ld f%4ld v%4ld i%4ld",
root.fileName.str, mem + emem,
root.faces.count,
root.vertices.count,
count
));
LOG_DIAG( ("%-36s: %9ld f%4ld v%4ld i%4ld",
root.fileName.str, mem + emem,
root.faces.count,
root.vertices.count,
count
));
}
return mem;
}
static void Handler(U32 pathCrc)
{
if (Var::lockout)
{
return;
}
char * s1 = NULL;
switch (pathCrc)
{
/*
VarSys::CreateInteger("mesh.load.terrmipcount", 4, VarSys::NOTIFY, &Var::terrMipCount);
*/
case 0xB8DA60B2: // "mesh.anim.blendtime"
renderState.animBlendTime = Var::animBlendTime;
break;
case 0x54135A94: // "mesh.load.mipcount"
renderState.mipCount = Var::mipCount;
break;
case 0xF8D50B70: // "mesh.load.mipmin"
renderState.mipMin = Var::mipMin;
break;
case 0xD4D8592F: // "mesh.load.scale"
renderState.scaleFactor = Var::scaleFactor;
break;
case 0x8D87963B: // "mesh.load.mrmgen"
renderState.status.mrmGen = Var::doMrmGen;
break;
case 0xA3B49A76: // "mesh.show.overlaymip"
renderState.status.overlayMip = Var::showOverlayMip;
break;
case 0xDB6B49D2: // "mesh.show.shadow"
renderState.status.showShadows = Var::showShadows;
break;
case 0x5BD45BD5: // "mesh.show.overlay"
renderState.status.overlay = Var::showOverlay;
break;
case 0x106657EA: // "mesh.show.envmap"
renderState.status.envmap = Var::showEnvMap;
break;
case 0x8D408543: // "mesh.show.hardpoints"
renderState.status.showPoints = Var::showHardPoints;
break;
case 0xF866E28F: // "mesh.show.origin"
renderState.status.showOrigin = Var::showOrigin;
break;
case 0x3067FEC3: // "mesh.show.normals"
renderState.status.showNormals = Var::showNormals;
break;
case 0xE0D39344: // "mesh.show.bounds"
renderState.status.showBounds = Var::showBounds;
break;
case 0x4D511DA8: // "mesh.show.multiweight"
renderState.status.multiWeight = Var::doMultiWeight;
break;
case 0xFA861318: // "mesh.show.interpolation"
renderState.status.interpMesh = Var::doInterpolate;
break;
case 0x26AC80A3: // "mesh.mrm.active"
renderState.status.mrm = Var::doMRM;
if (!*Var::doMRM)
{
// restore all meshes to max vertex count
Mesh::Manager::FullResList();
}
break;
case 0xEF4F617A: // "mesh.toggle.mrm"
Var::doMRM = !*Var::doMRM;
break;
case 0x6E2078E8: // "mesh.mrm.auto.active"
renderState.status.mrmAuto = Var::mrmAuto;
break;
case 0x115B9E22: // "mesh.mrm.factor"
renderState.mrmFactor1 = Var::mrmFactor;
break;
case 0x0783E3A9: // "mesh.mrm.distance"
renderState.mrmDist = Var::mrmDist;
break;
/*
VarSys::CreateInteger("mesh.mrm.auto.low", low, VarSys::NOTIFY, &Var::mrmLow)->SetIntegerRange(1, 100000);
VarSys::CreateInteger("mesh.mrm.auto.high", high, VarSys::NOTIFY, &Var::mrmHigh)->SetIntegerRange(1, 100000);
VarSys::CreateFloat("mesh.mrm.auto.constant1", 0.1f, VarSys::NOTIFY, &Var::mrmAutoConstant1);
VarSys::CreateFloat("mesh.mrm.auto.constant2", 0.00002f, VarSys::NOTIFY, &Var::mrmAutoConstant2);
VarSys::CreateFloat("mesh.mrm.auto.constant3", 0.01f, VarSys::NOTIFY, &Var::mrmAutoConstant3);
*/
case 0xD1598EAB: // "mesh.toggle.weighting"
Var::doMultiWeight = !*Var::doMultiWeight;
break;
case 0x2768304F: // "mesh.toggle.basepose"
Var::doBasePose = !*Var::doBasePose;
break;
case 0x7081F6C1: // "mesh.toggle.interpolation"
Var::doInterpolate = !*Var::doInterpolate;
break;
case 0x7F22B644: // "mesh.toggle.bounds"
Var::showBounds = !*Var::showBounds;
break;
case 0xDC1078E0: // "mesh.toggle.normals"
Var::showNormals = !*Var::showNormals;
break;
case 0x337EB398: // "mesh.toggle.hardpoints"
Var::showHardPoints = !*Var::showHardPoints;
break;
case 0x792562E7: // "mesh.toggle.origins"
Var::showOrigin = !*Var::showOrigin;
break;
case 0x5790E329: // "mesh.light.quick"
renderState.status.lightQuick = Var::lightQuick;
Mesh::Manager::SetupRenderProcList();
break;
case 0x04149DC1: // "mesh.light.single"
renderState.status.lightSingle = Var::lightSingle;
break;
case 0x18DC25F5: // "mesh.shadow.fadedepth"
case 0xE268DB72: // "mesh.shadow.fadedist"
renderState.shadowFadeDist = Vid::Math::farPlane * *Var::varShadowFadeDist;
renderState.shadowFadeDepthInv = 1 / ((Vid::Math::farPlane - Vid::renderState.shadowFadeDist) * *Var::varShadowFadeDepth);
break;
case 0x71AFCDF2: // "mesh.shadow.fadecutoff"
renderState.shadowFadeCutoff = *Var::varShadowFadeCutoff;
break;
case 0xF6C26D5A: // "mesh.shadow.y"
renderState.shadowY = Var::shadowY;
break;
case 0xB3474136: // "mesh.shadow.size"
renderState.texShadowSize = Var::varShadowSize;
break;
case 0xAC7D07DF: // "mesh.shadow.nightcolor"
{
S32 r = 255, g = 255, b = 255, a = 88;
Console::GetArgInteger(1, r);
Console::GetArgInteger(2, g);
Console::GetArgInteger(3, b);
Console::GetArgInteger(4, a);
nightLightColor.Set( r, g, b, a);
break;
}
case 0xA3E7812D: // "mesh.color.team"
renderState.teamColor = *Var::teamColor;
if (Mesh::Manager::curEnt)
{
Mesh::Manager::curParent->SetTeamColor( (Color) *Var::teamColor);
}
break;
case 0x263E1AA9: // "mesh.color.envalpha"
renderState.envAlpha = Var::envAlpha;
break;
case 0x7E8D6042: // "mesh.color.shadowalpha"
renderState.shadowAlpha = Var::shadowAlpha;
Vid::Light::SetupShadow();
break;
// utility
//
case 0x0C39A9C1: // "mesh.envmap"
if (Console::GetArgString( 1, s1))
{
Bitmap * map = Bitmap::Manager::Find( s1);
if (map)
{
Mesh::Manager::envMap = map;
}
}
else
{
CON_DIAG(("envmap = %s", Mesh::Manager::envMap ? Mesh::Manager::envMap->GetName() : "null"));
}
break;
case 0x46BDAA81: // "mesh.color.alpha"
case 0x05D592EA: // "mesh.color.base"
if (Mesh::Manager::curEnt)
{
Color color = Var::baseColor;
color.a = (U8)Var::alphaColor;
Mesh::Manager::curParent->SetBaseColor( color);
Mesh::Manager::curParent->SetFogTarget( 255, color.a, TRUE);
}
break;
case 0x7AF1FC7D: // "mesh.diffuse"
{
F32 f1;
if (Console::GetArgFloat(1, f1))
{
if (f1 < 0.1f)
{
f1 = 0.1f;
}
else if (f1 > 1.0f)
{
f1 = 1.0f;
}
Material::Manager::SetDiffuse( f1);
}
else
{
CON_DIAG(("diffuse = %.2f", Material::Manager::diffuseVal))
}
break;
}
case 0xD3BE61C1: // "mesh.report"
Console::GetArgString(1, s1);
Mesh::Manager::ReportList( s1);
break;
case 0xAA7BD58D: // "mesh.dump.heirarchy"
if (Mesh::Manager::curEnt)
{
Mesh::Manager::curEnt->LogHierarchy();
}
break;
case 0xEC368032: // "mesh.dump.offsetall"
if (Mesh::Manager::curEnt)
{
Mesh::Manager::curEnt->DumpHierarchy();
}
break;
case 0x9AC2B5EA: // "mesh.dump.offset"
if (Mesh::Manager::curEnt && Console::GetArgString( 1, s1))
{
FamilyNode * n1 = Mesh::Manager::curEnt->FindLocal( s1);
if (n1 && n1 != Mesh::Manager::curEnt)
{
FamilyNode * n2 = Mesh::Manager::curEnt;
char * s2;
if (Console::GetArgString( 2, s2))
{
FamilyNode * n = Mesh::Manager::curEnt->FindLocal( s2);
if (n)
{
n2 = n;
}
}
Matrix matrix;
matrix.ClearData();
n2->FindOffsetLocal( n1, matrix);
CON_DIAG((""));
CON_DIAG(("right %f,%f,%f", matrix.right.x, matrix.right.y, matrix.right.z));
CON_DIAG(("up %f,%f,%f", matrix.up.x, matrix.up.y, matrix.up.z));
CON_DIAG(("front %f,%f,%f", matrix.front.x, matrix.front.y, matrix.front.z));
CON_DIAG(("posit %f,%f,%f", matrix.posit.x, matrix.posit.y, matrix.posit.z));
break;
}
}
CON_DIAG(("app.offset [dstnode] [opt:srcnode]"));
break;
}
}
